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Clinical Trial Summary

Acute muscle strain injuries occur both during sports, in leisure time activities and during manual occupation and represent a major clinical challenge and has societal economic costs. The recovery time is long and a substantial injury recurrence is observed. Despite current best evidence rehabilitation with early mechanical loading, a significant loss of muscle mass, fatty infiltration and formation of scar tissue is reported. Animal models and human in vitro experiments suggest that inflammation is vital in the early period after an injury, however an inhibition of inflammatory processes is beneficial for healing. We investigate here whether a pharmacological inhibition of inflammatory pathways in the 2nd week following a muscle strain injury will provide a better clinical outcome and an advantageous cellular profile than rehabilitative training alone would.


Clinical Trial Description

Injuries in skeletal muscle occur in sports, under recreational activities and during manual occupational work, and it represents both a significant clinical challenge and a burden for the individual in the form of long-term functional disability and pain, and for society causing a major economic cost (Ekstrand 2011). Traumatic muscle strain injuries occur most often in the hamstring and the calf region, are caused by high-force movements and most often result in a partial defect at the muscle-tendon (aponeurosis) interface (Tidball 1993, 2017). A major clinical challenge is that the recovery after a traumatic muscle strain injury is often long and in addition to this, substantial injury recurrence is observed. Several studies estimate that 80% of re-injuries occur at the site of the original injury (Wangensteen 2016). It is known that early mechanical loading is important for shortening the period until pain-free return-to-sport (Bayer 2017). Whereas that study supports the role for mechanical loading in tissue repair and clinical recovery in the form of pain-free return to sports, early loading did not prevent muscle strength reduction and a significant loss of muscle mass in the injured muscle group, indicating that the recovery of the injured region is incomplete (Bayer 2018). Experimental muscle injury precipitates an inflammatory response in the damaged tissue, which includes sequential infiltration of many cells and the release of inflammatory cytokines and growth factors (Chazaud 2016). Further, a study with human muscle cells and tissue after experimentally induced muscle injury found that a pro-inflammatory phase characterized by M1-macrophages was obligatory needed in the first 7 days after injury in order to initiate the healing process, manifested as proliferation capacity of the myogenic precursor cells (MPC) (Saclier 2013). It can be argued thus that a blockade of this proinflammatory phase would inhibit the healing process. In contrast, to advance the healing process after this initial pro-inflammatory phase, a switch to more anti-inflammatory activity - M2-macrophage activity - was needed in the later phase (7-14 days) to ensure differentiation of the MPC and thus a continued regeneration of tissue (Saclier2013). It is therefore possible that this anti-inflammatory stage is vital and that continued inflammation would cause an overall suboptimal healing response. Recently, a long-lasting inflammatory response after a muscle strain injury was reported. Based on analysis of injury exudates, very high levels of several pro-inflammatory factors were observed (Bayer 2019). Persistent presence of inflammation is linked to the development of fibrotic tissue changes in the long run (Wynn 2016) and importantly, fibrotic changes have been described following strain injuries (Bayer 2021, Silder 2008). Also, as prolonged elevated TNF-α (tumor necrosis factor-α) is known as an activator of the Nuclear Factor NF-κB pathway, this could cause stimulation of muscle atrophy related genes (Cohen 2015). It appears therefore clinically relevant to ensure that the pro-inflammatory phase following strain injuries is initially undisturbed, but the continuous pro-inflammatory phase is blunted to reduce the formation of fibrosis. The aim of the present study is to test the hypothesis that an inhibition of inflammation, combined with the best standard training regimen in the later phase of recovery after injury (day 7-14) will provide a more optimal tissue recovery after injury than training alone will do. The overall hypothesis is that administration of NSAID in the second week after an acute muscle strain injury in otherwise healthy humans, will be beneficial for tissue healing, characterized by an improved cellular composition allowing for less scar formation in the regeneration phase. Participants will undergo a basic physical examination, including ultrasonographic scanning of the injured muscle site and fulfill questionnaire regarding previous injury history and present activities as well as symptoms. Participants are then randomized to either placebo or NSAID treatment (Bonyl/ Naproxen 500 mg x 2 per day for 7 days) starting on day 7 and continued until day 14 post injury. When participants are free of pain during movement including repeated explosive movements, the duration of the injury onset until full recovery is recorded (time to return to sports). Each participant will be followed by questionnaires for one year to record potential re-injuries. Biopsies will be taken in week 1 post injury, before the pharmacological intervention, and in week 3 post injury, after the pharmacological intervention. Biopsies will be analyzed by single nuclei RNA sequencing. Bioinformatics will be applied to investigate the distribution and number of cells in the injured muscle. Each biopsy will be compared to the control muscle (the same muscle as the injured one on the healthy, contralateral leg). The biopsies will be obtained with a semi-automatic equipment that is routinely used to sample tendon tissue and tissue from chronic scar area in muscle (Bard Monopty) with a diameter of 1,6 mm a length of 10 mm. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT06274151
Study type Interventional
Source Bispebjerg Hospital
Contact Monika Lucia L Bayer, PhD
Phone +4525687931
Email monika.lucia.bayer@regionh.dk
Status Not yet recruiting
Phase N/A
Start date February 15, 2024
Completion date December 31, 2029

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